Core transfer apparatus

ABSTRACT

An apparatus for replacing the transfer core of a core supported package with a replacement core includes a frame supported endless conveyor with a core replacement station. A series of spaced yarn package supports are carried by the conveyor. An indexing means is provided for placing the supports containing the yarn packages at the core replacement station. At this station a puller assembly is provided to grip the transfer core and extract it from the yarn package. Package retention mechanism is also provided which is adapted to cooperate with the puller assembly for preventing axial movement of the package during removal of the transfer core.

United States Patent 1191 Girard [11] 3,833,974 1 51 Sept. 10, 1974 CORE TRANSFER APPARATUS [76] Inventor: Herbert A. Girard, 1025 Woodland D12, Gastonia, NC. 28052 22] Filed: July 31, 1972 211 Appl. No.: 276,318

Related US. Application Data [63] Continuation-impart of Ser. No. 105,920, Jan. 12,

1971, Pat. NO. 3,681,007.

[52] US. Cl. 28/1 R, 242/1 [51] Int. Cl. D0lh 9/00, D02g 1/20 [58] Field of Search 28/1 R, 21; 242/1; 68/189,

[56] References Cited UNITED STATES PATENTS 2,736,184 2/1956 Harvey, Jr. et al. 68/189 X 3,246,391 4/1966 Coleman 29/200 DsUX 3,374,959 3/1968 Tigges 242/1 FOREIGN PATENTS OR APPLICATIONS 1,259,559 3/1961 France 68/198 INDEXING MEANS 1,057,575 2/1967 Great Britain 242/1 Primary Examiner-Robert R. Mackey Attorney, Agent, or Firm-Kane, Dalsimer, Kane, Sullivan and Kurucz [57] ABSTRACT An apparatus for replacing the transfer core of a core supported package with a replacement core includes a frame supported endless conveyor with a core replacement station. A series of spaced yarn package supports are carried by the conveyor. An indexing means is provided for placing the supports containing the yarn packages at the core replacement station. At this station a puller assembly is provided to grip the transfer core and extract it from the yarn package. Package retention mechanism is also provided which is adapted to cooperate with the puller assembly for preventing axial movement of the package during removal of the transfer core.

9 Claims, 7 Drawing Figures Pmmnznsw own sum 11: 1

FATENTEBSEPW'W saws smear 7 RAIENIEBSEHOISH sum 5 or 1 CORE TRANSFER APPARATUS CROSS-REFERENCE TO RELATED APPLICATION This application is a continuation-in-part of application Ser. No. 105,920, filed Jan. 12, I971, now US. Pat. No. 3,68l,007 granted Aug. 1, 1972.

' BACKGROUND OF THE INVENTION The invention relates to an apparatus for processing yarn packages for dyeing and, in particular, to an apparatus for replacing a relatively impervious transfer core of a yarn package with a dye penetrating foraminous core.

Yarn that has been processed for dyeing'may 'be in the form of bulked continuous filament thermoplastic yarnsuch as polyester, nylon or cellulose triacetate yarn, as well as spun yarn, such as direct spun rayon having residual shrinkage of up to 20 percent when ex posed to conditions of high humidity or when immersed in aqueous solutions, or acrylic yarn having high residual shrinkage by reason of unrelaxed heat sensitive f1- bers in the yarn. This yarn is generally wound into package form about a cardboard or paper transfer core or tube such that the outer portion of the package is at substantiallya desired bulk level whereas the inner portion is somewhat below this level. As disclosed in US. Pat. No. 3,425,110, the bulk level of the inner portion of the package may be'increased by simultaneously removing the cardboard package core while inserting a perforate dye core or tube of a predetermined smaller diameter than the cardboard core. The inner portion of the highly stretchable yarn then contracts (and gains bulk) about the perforate core.

Apparatus for replacing the cardboard core with a perforate core is disclosed in the aforesaid patent. However, such apparatus is subject to various drawbacks. The apparatus employs a vertically movable mandrel upon which is placed a perforate core. Upon actuation, the perforate core is pushed downwardly into engagement with a cardboard core in the yarn package, whereupon the continued downward movement causes the perforate core to push the cardboard core completely out of the package. Owing to the pressure and movement of the entering perforated core, there is a tendency of the yarn package to come apart and unduly distort. The apparatus is only able to process yarn packages singly whereas multiple package processing is more desirable for economy and efficiency purposes. Further, owing to the fact that both the cardboard transfer core and perforated dye core simultaneously move through the yarn it has been found necessary to sandwich a paper or knit sleeve or sock between the yarn and the transfer core to serve as a bridge or shield during transfer. Without the sleeve ,it has been observed that some of the strands of yarn become trapped between the ends of the transfer core and the dye core during the operation, thereby disturbing the continuity of the yarn.

As set forth in the above-reference co-pending application Ser. No. 105,920, it has been found that the above drawbacks and disadvantages are overcome by placing a replacement dye core within the cardboard transfer core and thereafter pulling the cardboard core out of the yarn package to permit the package to contract around the replacement core. Apparatus for performing such a process has been proposed as set forth in the co-pending application. While achieving satisfactory results, further improvements have now been provided for simultaneously processing at least two yarn packages in continuous operation. Provision is also made for effective handling and disposing of the cardboard transfer core.

SUMMARY OF THE INVENTION It is, therefore, aprimary object of the invention to provide an apparatus adapted to continuously process multiple yarn packages by replacing the impervious transfer core of each yarn package with a foraminous replacement core of a predetermined smaller diameter.

It is another object of the invention to provide an apparatus of the foregoing type for continuously processing package cores and thereafter disposing the transfer cores.

The above and other objects are satisfied by an apparatus including an endless conveyor supported by a frame and a core replacement station adjacent the conveyor. A plurality of spaced apart yarn package supports are arranged on the conveyor. Indexing means are also present for sequentially indexing each of the supports at the core replacement station. A mechanism associated with the feed station is utilized for pulling the transfer core from each of the yarn packages con,- veyed to and indexed at the feed station. Also present at the feed station are means adapted to cooperate with the pulling means for preventing axial movement of the package during removal of the transfer core.

BRIEF DESCRIPTION OF THE DRAWINGS Other objects and advantages of the invention will become apparent from the following detailed description of the invention which is to be taken in conjunction with the accompanying drawings illustrating a preferred embodiment of the invention in which:

FIG. 1 is an end elevational view illustrating the core transfer apparatus of the invention;

FIG. 2 is a front plan view taken along line 2-2 of FIG. 1;

FIG. 3 is an exploded view illustrating the core pulling mechanism of the apparatus;

FIG. 4 is an enlarged fragmentary sectional view showing the core pulling head before grasping the transfer core with the hold down plate restraining the yarn package;

FIG. 4a is an enlarged fragmentary sectional view showing the core pulling head-after grasping the transfer 'core with the hold down plate restraining tthe yarn p k FIG. 5 is a fragmentary enlarged sectional view showing the core pulling assembly after removal of the transfer core from the yarn package; and

FIG. 5a is a fragmentary enlarged sectional view showing removal of the transfer core from the core pulling assembly.

DETAILED DESCRIPTION As illustrated in FIGS. 1 and 2 the core transfer apparatus of the invention includes frame 10 upon which is carried three spaced driven chains 12. A conventional chain drive (not shown) drives the endless chains through sprocket wheels 14 located at opposite ends of the frame. A series of spaced apart conveyor plates 16 are carried in parallel rows by the chains 12.

Each conveyor plate 16 carries a yarn package support assembly 18. As illustrated in the drawings and particularly FIGS. 1, 3 and 4, support assembly 18 includes annular horizontal spacing plate 20 supported from conveyor plate 16 by vertical pillars 22. Protruding through a central hole in spacing plate 20 is vertical mandrel 24 which is threaded into conveyor plate 16. An intermediate plate 17 cooperates in supporting the lower end of core 26.

A foraminous replacement core such as a coil spring or a perforated plastic tube of smaller diameter than the original carboard transfer core 26 is placed over the mandrel as shown in FIG. 2. It is also contemplated that replacement core 28 be in the form of a spring, which is designed in such a way that the lacing when empty gives an effective diameter to the spring which is larger than the inside diameter of the cardboard core 26. However, upon insertion of the spring 28 into the core, the nature of the lacing is such that the spring can be compressed within the carboard core. The reason for such a tight fit, is to permit little if any space to exist between the inside core of the yarn and the outside surface of the replacement core or spring. The replacement core 28 extends through the orifice in spacing plate 20 and rests on conveyor plate 16 (see FIG. 4). Yarn package 30 is supported by spacing plate 20.

In order to further arrest the movement of the replacement core during the transfer core pulling operation, a horizontally disposed hole or channel 32 is placed in the base portion of the mandrel. Prior to the core pulling operation a reciprocable rod 34 illustrated in FIG. 3 and carried at the core pulling station is inserted through the replacement core 28 into the channel by a conventional air or hydraulic actuated cylinder 36.

A core pulling station 38 is provided for cooperating in removing the transfer core 26 from the yarn packages 30. As illustrated in FIGS. 13, the station preferably includes first and second core pulling assemblies 40, 40'. Each pulling assembly has associated therewith a yarn package restraining sub-assembly 42 and a transfer core removing head assembly 44.

The yarn restraining sub-assembly 42 operates to arrest any possible movement of the yarn package 30 during transfer core removal; and it includes an annular hold down plate or pressure pad 46, which, as illustrated in FIG. 4, is adapted to abut the upper end of the yarn package during core transfer. Improper spacing of the yarn windings on core 26 are overcome by the downward movement of the plate 46, the bottom of which stroke insures that the yarn is in firm contact with the spacing plate 20. The relationship of the spacing plate to the elevation of the cores 28 is a constant which is maintained for uniform spacing of the yarns on the spring. It has been found desirable to have the plate 46 slightly compress the package (see FIG. 4), in order to loosen the grip of the yarn on the cardboard tube 26, and permit easier withdrawal. The axial compression of cross-wound packages, results in some relaxation of the yarn, and consequent easier withdrawal of the cardboard core 26. Slight compression also provides a uniform containment between the spacing and the restraining plates, the distance between the plates being somewhat less than normal distance between the ends of the yarn on an untreated package. The hold down plate has a central orifice extending therethrough to permit the transfer core to be pulled therethrough. The hold down plate 46 has a support collar 48 attached to its upper surface. The support collar has a central orifice of sufficient diameter to permit split ring or jaw clamp 76 to extend therein during engagement with the transfer core 26.

The hold down plate 46 is attached to a reciprocating mechanism which permits the hold down plate to he raised and lowered as desired during the sequential operation of the apparatus The hold down plate actuating mechanism includes an air actuated piston disposed within cylinder 52 connected to one face of the pulling assembly. A reciprocating rod 54 is vertically disposed from the cylinder and is attached to hold down plate bushing 56. Plate bushing 56 is a generally rectangular metal plate to which is bolted or connected support collar 48. During movement of the hold down plate, bushing 56 reciprocates vertically along travel rods 58 and 60. The travel rods are supported by rectangular bottom stop plate 62 which is connected to pulling assembly 40 by means of support 64.

Movement of the hold down plate 46 is arrested at the lowermost vertical position by bottom stop plate 62 and at its uppermost position by top stop 66. A pair of holes are provided in the plate bushing 56 to permit the travel rods to extend therethrough.

In FIGS. 3-5, pulling head assembly 44 is illustrated. A pair of pulling head assemblies 44 are mounted at opposed sides of pulling station 38 (See FIG. 1). Each pulling assembly is in vertical axial alignment with the hold down plate 46 of the associated yam restraining subassembly 42. Pulling head assembly 44 includes chuck 68 which is adapted to internally and frictionally engage transfer core 26. Cylindrical collet 70 has a central orifice extending therethrough and is adapted to frictionally engage the upper portion 72 of pilot pinor chuck 68 and rest on chuck shoulder 74. A collet or jaw clamp 76 is concentrically disposed about collet 70 and chuck 68. Clamp 76 has a split skirt 78 adapted to be compressed inwardly by external pressure. As illustrated in FIG. 4, a cylindrical space is provided between the inner surface 80 of split skirt 78 and the bottom surface 82 of chuck 68. The spacing is sufficient to permit the transfer core to be disposed therein during engagement thereof. The gripping assembly formed from clamp 76, collet 70 and chuck 68 is secured ,together by means of bolt 84 and spacer 86. A pair of stabilizing rods 88 extend from the upper face of collet 70 and extend through travel plate 90.

An annular locking collar or constriction ring 98 is adapted to frictionally engage split skirt 78 and compress the skirt inwardly toward chuck 68 to frictionally engage transfer core 26 as illustrated in FIG. 5. For this purpose, the constriction ring should be of somewhat larger diameter than the widest portion 100 of the split skirt 78. A pair of integral wings 102 extend outwardly in opposite directions from the uppermost portion of the constriction ring. In order to permit reciprocation of the constriction ring between a lowermost position as illustrated in FIG. 5 adjacent the bottom of split skirt 78 to an uppermost position as illustrated in FIG. 4 in engagement with travel plate 90, travel rods 104 are provided. Rods 104 are threaded into wings 102 at their lowermost portions and are connected at their uppermost portions through travel plate to air cylinders 106. Air cylinders 106 are adapted to reciprocate travel rods 104 to a lowermost and uppermost position in a preselected sequential manner.

Gripping head assembly 44 is connected by means of bolts (not shown) to travel plate 90 and thusly, moves therewith. Air cylinders 106 are also connected to travel plate 90 for movement therewith. Further, constriction ring 98 is connected to air cylinders 106 through travel rods 104 and is also adapted to move with travel. plate 90. However, constriction ring 98 is adapted to independently move in reciprocal fashion with respect totravel plate 90 by means of the air cylinders. In order to permit the gripping head assembly 44 andconstriction ring 98 to move from a first position as illustrated in FIG. 2 above the yarn package to a second position whereinthe chuck 68 and clamp 76 are in frictional engagement with the upper edge of the transfer core 26, travel plate 90 is connected to piston rod 108. Piston rod 108 is the reciprocating rod for air cylinder 110 which is in vertical alignment with the central axis of locking collar 98 and the vertical axis extending through the gripping head assembly 44. As illustrated in FIG. 1 air cylinder 110 is connected to the pulling assembly support by means of horizontal supports 112, 112'.

An aligning shaft 114 provides additional slignment support for the gripping head assembly 44 when it is in the lowermost position adjacent the transfer core 26. Aligning shaft 114 is connected at its lowermost portion to travel plate 90 and is adapted to move therewith. Aligning shaft 114 also extends through support 112' which serves to prevent lateral movement of this shaft when in its lowermost position.

An air jet 116 is provided for blowing the transfer cores 26 into a collecting bin (not shown). The air jet is on the pulling assembly 40 such that when the gripping head assembly 44 is in its withdrawn uppermost position and the transfer core 26 is released, it can blow this core into the collecting bin.

In operation, as illustrated in FIG. 2, a spring or perforated replacement core 28 is placed over mandrel 24 by the machine operator. Next, the yarn package containing the transfer core 26 is placed over the mandrel 24 until it rests on spacing plate 20. Another core and yarn package is placed on the aligned companion mandrel on the chain conveyor. Next the conveyor chain is energized. The mandrel loading procedure is repeated for the remaining mandrels as they turn to their upright position. Timing cams (not shown) may be employed actuating conventional four-way solenoid valves which, in turn, energize the air cylinders.

Thus, the timing cam for each core pulling assembly 40 or 40 is adapted to actuate its associated four-way solenoid valve in response to movement of the conveyor chain in order to actuate sequentially air cylinder 52 air cylinder 110, air cylinder 106 and air cylinder 36, as will be discussed in further detail hereinafter. This controlling means or indexing means 120 is shown schematically in FIG. 2 and is of the general type which is well-known to those skilled in the conveyor art. As a pair of mandrel'supported yarn packages approach the core pulling station 38, they are indexed and placed in vertical alignment with the gripping head assembly 44 and hold down plate assembly 46. At this point, both the hold down plate assembly and gripping head assem- 6 bly are in their raised position. Next, the holddown plate air cylinder 52 is actuated to permit the holddown plate to descend into frictional engagement with the top surface 118 of yarn package 30. Simultaneously therewith or shortly thereafter, pulling head air cylinder 110 is actuated thereby driving travel plate downwardly to permit the gripping head assembly 44 to descend about the top end of transfer core 26. After the chuck 68 has descended into the transfer core and the clamp 76 has been concentrically disposed about the core 26, the air cylinders 106 driving the constriction ring 98 are activated to lower the rings into compressing engagement with the widest portion I00 of clamp split skirt 78. This movement drives the split skirt toward the chuck thereby causing gripping of the upper end of the transfer core 26. Prior to this time or before the transfer core is pulled from the yarn package reciprocal rod 34 will have been directed in the channel 32 of the mandrel by air cylinder 36 to prevent the replacement core 28 from moving withh respect to the yarn package during the core pulling operation.

Next, air cylinder is actuated to raise the gripping head assembly 44 to pull the transfer core 26 out of the yarn package. The holddown'plate air cylinder 52 is then actuated to release the yarn package. Simultaneously therewith or sometime shortly thereafter, air cylinders 106 are actuated to raise travel rods 104 to lift the associated constriction ring 98 to the position as illustrated in FIG. 4 at which the transfer core 26 is released from the clamp 76. At this time, air cylinder 110 is actuated again to raise the assembly 44 about 2 inches to permit the core 26 to fall freely Simultaneously therewith, the air jet is actuated to blow the released core 26 into the collection bin (not shown).

Thereafter, the entire operation is repeated with the next pair of yarn packages being indexed at the pulling station. I

It will be obvious to those skilled in the art that various modifications may be made to the apparatus hereinbefore described. Such embodiments are considered to be within the scope of the invention. The above invention is not be limited except as set forth in the following claims:

I claim:

1. Apparatus for replacing the transfer core of a transfer core supported wound package of yarn with a resilient foraminous replacement core of predetermined smaller diameter comprising:

a. means for supporting the yarn package, including the yarn and transfer core;

b. means for supporting the replacement core interi orly of said transfer core;

c. a transfer core removal station;

d. means for indexing the yarn package, transfer core and replacement core at said transfer core removal station;

e. means for locking said yarn package against axial movement at said removal station;

f. gripping means for gripping the transfer core', and

g. means for axially shifting the gripping means, to effect removal of said transfer core from said yarn package;

whereby the yarn in said inner portion of the package contracts about said replacement core.

2. The apparatus of claim 1 including means for gripping the replacement core at said removal station during withdraw] of said transfer core from said yarn package for preventing axial movement of said replacement core and thus preventing relative axial movement between said yam package and said replacement core.

3. Apparatus for replacing the transfer core of a package having yarn wound around such core and a replacement core inserted into such transfer core comprising a. an endless conveyor supported by a frame;

b. a transfer core removal station associated with the conveyor;

c. a plurality of spaced apart package supports connected to said conveyor and supporting yarn packages thereon;

d. indexing means connected to said apparatus for sequentially indexing each of said supports at said transfer core removal station;

e. gripping means associated with said transfer core removal station for gripping a transfer core;

f. means for locking said yarn package against axial movement; and

g. pulling means associated with the gripping means for pulling the gripped transfer core from each said yarn package indexed at said station,

whereby the replacement core remains in position core.

5. The invention in accordance with claim 3 wherein ejection means are provided at the transfer core removal station for ejecting the removed transfer core.

6. The invention in accordance with claim 3 wherein the gripping means includes a clamp having a split skirt and a constriction ring for engaging the skirt to constrict the skirt about the transfer core to grip this core.

7. The invention in accordance with claim 3 wherein two rows of package supports are connected to said conveyor, each row having a plurality of spaced apart yarn packages, and wherein said gripping means includes a first gripping element for gripping the transfer cores in one of said rows of packages and a second gripping element for gripping the transfer cores in the other of said rows of packages.

8. The invention in accordance with claim 3 wherein a replacement core supporting means is associated with each of the package supports for supporting the replacement cores on said conveyor.

9. The invention in accordance with claim 3 wherein the locking means compresses the yarn axially on the transfer core to loosen the grip of the yarnpackage on the transfer core and thereby facilitate removal of the transfer core. 

1. Apparatus for replacing the transfer core of a transfer core supported wound package of yarn with a resilient foraminous replacement core of predetermined smaller diameter comprising: means for supporting the yarn package, including the yarn and transfer core; b. means for supporting the replacement core interiorly of said transfer core; c. a transfer core removal station; d. means for indexing the yarn package, transfer core and replacement core at said transfer core removal station; e. means for locking said yarn package against axial movement at said removal station; f. gripping means for gripping the transfer core; and g. means for axially shifting the gripping means, to effect removal of said transfer core from said yarn package; whereby the yarn in said inner portion of the package contracts about said replacement core.
 2. The apparatus of claim 1 including means for gripping the replacement core at said removal station during withdrawl of said transfer core from said yarn package for preventing axial movement of said replacement core and thus preventing relative axial movement between said yarn package and said replacement core.
 3. Apparatus for replacing the transfer core of a package having yarn wound around such core and a replacement core inserted into such transfer core comprising a. an endless conveyor supported by a frame; b. a transfer core removal station associated with the conveyor; c. a plurality of spaced apart package supports connected to said conveyor and supporting yarn packages thereon; d. indexing means connected to said apparatus for sequentially indexing each of said supports at said transfer core removal station; e. gripping means associated with said transfer core removal station for gripping a transfer core; f. means for locking said yarn package against axial movement; and g. pulling means associated with the gripping means for pulling the gripped transfer core from each said yarn package indexed at said station, whereby the replacement core remains in position with the yarn package around it.
 4. The invention in accordance with claim 3 wherein means are provided for preventing axial movement of the replacement core during removal of said transfer core.
 5. The invention in accordance with claim 3 wherein ejection means are provided at the transfer core removal station for ejecting the removed transfer core.
 6. The invention in accordance with claim 3 wherein the gripping means includes a clamp having a split skirt and a constriction ring for engaging the skirt to constrict the skirt about the transfer core to grip this core.
 7. The invention in accordance with claim 3 wherein two rows of package supports are connected to said conveyor, each row having a plurality of spaced apart yarn packages, and wherein said gripping means includes a first gripping element for gripping the transfer cores in one of said rows of packages and a second gripping element for gripping the transfer cores in the other of said rows of packages.
 8. The invention in accordance with claim 3 wherein a replacement core supporting means is associated with each of the package supports for supporting the replacement cores on said conveyor.
 9. The invention in accordance with claim 3 wherein the locking means compresses the yarn axially on the transver core to loosen the grip of the yarn package on the transfer core and thereby facilitate removal of the transfer core. 